Computer Aided Medical Procedures (CAMP), Technische Universität München, München, Germany.
Med Image Anal. 2012 May;16(4):806-18. doi: 10.1016/j.media.2011.11.008. Epub 2011 Dec 8.
Respiratory motion is a challenging factor for image acquisition and image-guided procedures in the abdominal and thoracic region. In order to address the issues arising from respiratory motion, it is often necessary to detect the respiratory signal. In this article, we propose a novel, purely image-based retrospective respiratory gating method for ultrasound and MRI. Further, we apply this technique to acquire breathing-affected 4D ultrasound with a wobbler probe and, similarly, to create 4D MR with a slice stacking approach. We achieve the gating with Laplacian eigenmaps, a manifold learning technique, to determine the low-dimensional manifold embedded in the high-dimensional image space. Since Laplacian eigenmaps assign to each image frame a coordinate in low-dimensional space by respecting the neighborhood relationship, they are well suited for analyzing the breathing cycle. We perform the image-based gating on several 2D and 3D ultrasound datasets over time, and quantify its very good performance by comparing it to measurements from an external gating system. For MRI, we perform the manifold learning on several datasets for various orientations and positions. We achieve very high correlations by a comparison to an alternative gating with diaphragm tracking.
呼吸运动是腹部和胸部区域图像采集和图像引导手术的一个挑战因素。为了解决呼吸运动引起的问题,通常需要检测呼吸信号。在本文中,我们提出了一种新颖的、完全基于图像的超声和 MRI 回顾性呼吸门控方法。此外,我们还应用该技术使用摆动探头获取受呼吸影响的 4D 超声,并使用切片堆叠方法创建 4D MR。我们使用拉普拉斯特征映射(一种流形学习技术)来实现门控,通过这种技术可以确定嵌入在高维图像空间中的低维流形。由于拉普拉斯特征映射通过尊重邻域关系为每一帧图像分配低维空间中的坐标,因此非常适合分析呼吸周期。我们在几个二维和三维超声数据集上进行基于图像的门控,并通过与外部门控系统的测量值进行比较来量化其非常好的性能。对于 MRI,我们对各种方向和位置的多个数据集执行流形学习。通过与使用膈肌跟踪的替代门控进行比较,我们实现了非常高的相关性。
